Aspergilloma pada Tuberkulosis Paru

The incidence of lung aspergillosis increases year to year. Lung aspergilloma is the most recognizable form of aspergillosis. Since 1980, the most common condition for initiating aspergillosis is tuberculosis (TB). Untreated pulmonary TB can cause several complications, such as decreases of pulmonary function, persistent pulmonary symptoms and Chronic Pulmonary Aspergillosis (CPA). More than 90% Aspergillosis is caused by Aspergillus fumigatus, this type is also widely found in people with TB. This type of fungus has a simple biological cycle with high sporulation capacity, which causes the release of conidia into the atmosphere with high concentrations. Humans inhale hundreds of conidia each day. Immuno competent hosts are capable of destroying conidia with the pulmonary immune system. Aspergillus infections cause illness when the host response is too strong or weak to the aspergillus antigen. The CPA morbidity rate is quite large with systemic symptoms and respiratory symptoms due to progressive pulmonary fibrosis and diminished lung function. During treatment, the CPA has a fatality rate of 20-33% in the short term and more than 50% in the span of 5 years. The Research Committee of the British Tuberculosis Association found that patients with post-TB cavity had a high risk of fungal colonization. The cavity formed in pulmonary TB is a suitable place for the development of various organisms including the fungus because it contains enough oxygen and necrotic tissue. The most common form of CPA associated with TB is Aspergilloma. In this review we will focus on aspergilloma, its diagnosis and management.

Survey of Serum Aspergillus Antigen in Patients Undergoing Chemotherapy for Acute Myeloid Leukemia or Allogeneic Hematopoietic Stem Cell Transplantation: Role in Predicting Invasive Aspergillosis and in Modifying the Therapeutic Strategy

Introduction Invasive aspergillosis (IA) remains an important cause of mortality in immunocompromised acute myeloid leukemia (AML) patients receiving induction chemotherapy and in patients undergoing allogeneic hematopoietic stem cell transplantation (allo-HSCT) for hematological malignancies. Early diagnostic is critical and challenging given the efficacy and availability of several new anti-fungal therapies. In this study, we evaluated the performance of different factors in predicting the occurrence of IA, including the Aspergillus antigen galactomannan (GM) detection in sera. Methods We included all AML patients receiving induction chemotherapy and patients undergoing allo-HSCT for any hematological malignancy at our center between April 2006 and April 2014 with available data on Aspergillus antigen GM. Serologic detection of circulating GM fungal biomarker was considered during the 100 days following the first day of induction chemotherapy in AML patients or from the day of allo-HSCT. Usual follow-up included two GM tests per week, only patients with at least three serum GM results were considered. The GM tests have been performed routinely using the ELISA kit (Platelia Aspergillus antigen ELISA, Biorad), giving the results in index values. Demographic, GM index results and diagnostic data were collected. IA cases were classified as proven or probable according to the EORTC criteria. The value of the first antigen test, the delay to positivity, and the slope of the progression of the index value between the first two antigens concentrations were considered as predictors of IA. ROC curves for each predictor and their combination were performed and prognostic scores were established. Results A total of 775 patients were included : i) 292 AML patients, 153 (52%) males with a median age of 62 years (range: 17-79), 15% were classified as favorable, 8% as intermediate I, 18% as intermediate II and 59% as unfavorable according to cytogenetics and molecular markers; ii) 483 allo-HSCT patients, 293 (61%) were males, median age was 48 years (range: 18-70), among them 234 (48%) AML, 66 (14%) multiple myeloma, 46 (10%) Myelodysplastic syndromes, 38 (8%) Non-Hodgkin Lymphoma and the rest of patients had other hematological disorders; 233 (48 %) patients received reduced intensity conditioning and 250 (52%) myeloablative conditioning. The disease status at allo-HSCT was complete remission (CR) in 366 (76%) patients and the rest of patients were in less than CR. HSC source was peripheral blood in 42.2% (90 identical siblings, 150 10/10 matched unrelated, 54 9/10 mismatched unrelated), bone marrow in 42.6% (105 identical siblings, 162 10/10 matched unrelated, 45 9/10 mismatched unrelated) and cord blood in 15.2%. A total of 877 episodes with 16121 GM serum antigen results was considered (median: 18 GM tests per patient). During the follow-up, we identified 121 episodes with at least one positive GM test with a cumulative incidence at day 100 of 13.8%. We also diagnosed 48 IA (2 proven, 46 probable), with a cumulative incidence at day 100 of 5.5% in total, 7.2% in AML and 4.3% in allo-HSCT, respectively. We then classified the GM positive episodes in 82 false-positive (68%) and 39 true-positive episodes (32%) for IA, respectively. A majority of IA events occurred during the first 30 days of follow up, GM positivity showing a positive predictive value of 41% versus a negative predictive value of 99%. The three IA predicting factors had similar independent effects and their combinations were performed, allowing the establishment of an area under ROC of 0.79 (95% CI: 0.70-0.89). Cut off values of the first positive GM serum and slope were equal or higher than 1.04 and 0.04, respectively, and delay to positivity equal or less than 15 days. To simplify the practical use in clinical practice, the prognostic score defining the IA risk probability was defined as the number of predictors present (values from 0 to 3). This score was tested on positive follow-up giving values of 0, 1, 2 or higher for 45 (37%), 39 (32%) and 37 episodes (31%), respectively. A score superior or equal to 2 was indicative of IA in 62% of the cases (figure 1). Conclusion As IA has a significant impact on hematology patient's survival, this GM predictive score combining three predictors (value of the first antigen index, delay of positivity and slope of the index values) may help clinicians to conclude about starting an early preemptive IA treatment. Figure 1. Figure 1. Disclosures Nicolini: Ariad Pharmaceuticals: Honoraria, Membership on an entity's Board of Directors or advisory committees, Speakers Bureau; Bristol-Myers Squibb: Honoraria, Membership on an entity's Board of Directors or advisory committees, Speakers Bureau; Novartis: Honoraria, Membership on an entity's Board of Directors or advisory committees, Research Funding, Speakers Bureau.

Favorable outcome of hepatosplenic candidiasis in a patient with acute leukemia

Introduction. Acute leukemias treatment requires strong chemotherapy. Patients that develop bone marrow aplasia become immunocompromised, thus becoming liable to bacterial and fungal infections. Fungal infections caused by Candida are frequent. Hepatosplenic candidiasis (HSC) is a frequent consequence of invasive candidiasis which is clinically presented with prolonged febrility unresponsive to antibiotics. Case Outline. A 53-year-old patient with acute myeloid leukemia was submitted to standard chemotherapy ?3+7? regimen (daunoblastine 80 mg i.v. on days 1 to 3, cytarabine 2?170 mg i.v. during 7 days) and achieved complete remission. However, during remission he developed febrility unresponsive to antibiotics. Computerised tomography (CT) of the abdomen showed multiple hypodense lesions within the liver and spleen. Haemocultures on fungi were negative. However, seroconversion of biomarkers for invasive fungal infection (IFI) (Candida and Aspergillus antigen/Ag and antibody/Ab) indicated possible HSC. Only high positivity of anti-Candida IgG antibodies, positivity of mannan and CT finding we regarded sufficient for the diagnosis and antimycotic therapy. Three months of treatment with different antimycotics were necessary for complete disappearance of both clinical symptoms and CT findings. Conclusion. In patients with prolonged febrile neutropenia IFI has to be strongly suspected. If imaging techniques show multiple hypodense lesions within liver and spleen, HSC has to be taken seriously into consideration. We believe that, along with CT finding, positive laboratory Candida biomarkers (mannan and IgG antibodies) should be considered sufficient for ?probable HSC? and commencement of antifungal therapy, which must be long enough, i.e. until complete disappearance of clinical symptoms and CT findings are achieved.

Epidemiology Of Invasive Aspergillosis (IA) During Induction Therapy In Adults With Acute Lymphoblastic Leukemia (ALL): A Graall-2005 Study

Background IA is a major cause of morbidity and mortality for patients with hematological malignancies and has been mainly reported in patients with acute myeloblastic leukemia (AML) and stem cell transplantation. Much less is known about the role of IA during the treatment of lymphoproliferative diseases like ALL. Here, we retrospectively evaluated the characteristics of patients and the incidence of IA occurring during the induction course in adult ALL patients enrolled in the GRAALL-2005 trial. Methods We collected the data of 36 patients with IA during induction chemotherapy. All were included between May 2006 and October 2012 in the multicentric GRAALL-2005 phase III trial. According to ALL characteristics, these patients were treated in 3 different substudies: GRAALL, GRAALL-Rituximab (GRAALL-R) for CD20+ ALL, GRAAPH for Philadelphia (Ph) chromosome-positive ALL. IA was defined retrospectively using the EORTC modified criteria (De Pauw, CID 2008). Results Among the 969 patients enrolled, 36 (3.7%) developed IA during induction therapy. The median age was 30 years for all patients receiving induction and 47 years (range, 18 to 59) for patients with IA. We observed 18 IA (3%) by the GRAALL protocol (593 patients enrolled), 16 (8.3%) by the GRAALL-R protocol (191 patients enrolled), and 2 (0.7%) by the GRAAPH protocol (270 patients enrolled). In the GRAALL-R protocol, IA was diagnosed in 6 patients randomly assigned to receive rituximab and in 10 patients treated in the control group. The median time between first day of induction therapy and IA diagnosis was 20 days (range, -2 to 71). The median time between the first day of neutropenia and IA diagnosis was 18 days (range, 0 to 76). At the time of IA diagnosis, 13 patients were hospitalized in laminar airflow rooms, 10 patients in rooms with overpressure, 1 patient in a room with high-efficiency particulate filter, 5 patients in conventional rooms, 1 patient received home care and the type of hospitalization was unknown for the 6 remaining patients. Four patients with IA (11%) had received antifungal drug for invasive fungal infection (IFI) prophylaxis: one patient received fluconazole, one received caspofungin, and two received liposomal amphotericin B. All patients with IA presented pulmonary symptoms associated with a sinusal or cutaneous localization in 1 and 2 patients respectively. The diagnosis of IA was classified as possible in 7 episodes (19 %), probable in 22 episodes (61%), proven in 4 episodes (11%), and indeterminate in the remaining 3 episodes. Detection of Aspergillus antigen in serum by latex agglutination was positive in 24 cases (67%). Chest CT scans were taken for 33 patients (92%): nodules were found in 19 patients, halo sign in 20 patients, and “air crescent sign” in 1 patient. Bronchoalveolar lavage was performed in 11 patients (31%): culture was positive in 7 of them and Aspergillus antigen was positive in 2 of them. Biopsies where positive in 4 cases: in pulmonary biopsy in 3 patients and in cutaneous biopsy in 1 patient. Of all the Aspergillus isolates identified to the species level, Aspergillus fumigatus was isolated from 4 patients and Aspergillus flavus from 1 patient. Overall and IA-attributable 12-week mortality was 8 (0.8%) and 6 (16.7%) patients respectively. Conclusion IA is less frequently observed during induction therapy in adult ALL as compared to adult AML patients. However, the attributable mortality appears to be high in these patients. They are as at risk patients for IA and should be included in prophylactic and empirical antifungal clinical trials. Disclosures: No relevant conflicts of interest to declare.